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/*******************************************************************************
    @file     adc.h
    @brief    Contains all functions support for adc driver
    @version  0.0
    @date     18. Oct. 2017
    @author   qing.han



*******************************************************************************/
#ifndef __ADC__H__
#define __ADC__H__

#ifdef __cplusplus
extern "C" {
#endif


#include "types.h"
#include "bus_dev.h"
#include "gpio.h"

#define    MAX_ADC_SAMPLE_SIZE     32
#define    ADC_CH_BASE             (0x40050400UL)

#define    ENABLE_ADC_INT       AP_ADCC->intr_mask |= 0x000001ff
#define    MASK_ADC_INT         AP_ADCC->intr_mask &= 0xfffffe00

#define    CLEAR_ADC_INT(n)        AP_ADCC->intr_clear |= BIT(n)
#define    CLEAR_ADC_INT_ALL      {AP_ADCC->intr_clear = 0x3ffff;}

#define    IS_CLAER_ADC_INT_VOICE (AP_ADCC->intr_clear & BIT(8))
#define    IS_CLAER_ADC_INT(n)    (AP_ADCC->intr_clear & BIT(n))




#define    ENABLE_ADC             (AP_PCRM->ANA_CTL |= BIT(3))
#define    DISABLE_ADC            (AP_PCRM->ANA_CTL &= ~BIT(3))

#define    ADC_CLOCK_ENABLE       (AP_PCRM->CLKHF_CTL1 |= BIT(13))
#define    ADC_CLOCK_DISABLE       (AP_PCRM->CLKHF_CTL1 &= ~BIT(13))

#define POLLING_MODE 0
#define INTERRUPT_MODE 1
#define CCOMPARE_MODE 2


#define adcMeasureTask_Compare_EVT                    0x0080

#define adcMeasureTask_Poilling_EVT                   0x0080


#define adcMeasureTask_EVT                            0x0080

#define ADC_USE_TIMEOUT 0
#define ADC_OP_TIMEOUT  100
#if(ADC_USE_TIMEOUT == 1)
#define ADC_INIT_TOUT(to) int to = hal_systick()
#define ADC_CHECK_TOUT(to, timeout, loginfo) {if(hal_ms_intv(to) > timeout){LOG(loginfo);return PPlus_ERR_TIMEOUT;}}
#else
#define ADC_INIT_TOUT(to)
#define ADC_CHECK_TOUT(to, timeout, loginfo)
#endif

/**************************************************************************************
    @fn          hal_get_adc_int_source

    @brief       This function process for get adc interrupt source,such as adc channel NO

    input parameters

    @param       None.

    output parameters

    @param       None.

    @return      adc interrupt source bit loaction(uint8_t)
 **************************************************************************************/
/*
    ADC note:
    There are ten pins which can config as analogy,there are some differences between them.
    hardware analogy index:
    gpio<11>/aio<0>
    gpio<23>/aio<1>/micphone bias reference voltage
    gpio<24>/aio<2>
    gpio<14>/aio<3>
    gpio<15>/aio<4>/micphone bias
    gpio<16>/aio<5>/32K XTAL input
    gpio<17>/aio<6>/32K XTAL output
    gpio<18>/aio<7>/pga in+
    gpio<25>/aio<8>
    gpio<20>/aio<9>/pga in-

    There are six pins which can work in adc single mode.Such as:
    ADC_CH0 = 2,ADC_CH1N_P11 = 2,
    ADC_CH1 = 3,ADC_CH1P_P23 = 3,
    ADC_CH2 = 4,ADC_CH2N_P24 = 4,
    ADC_CH3 = 5,ADC_CH2P_P14 = 5,
    ADC_CH4 = 6,ADC_CH3N_P15 = 6,
    ADC_CH9 = 7,ADC_CH3P_P20 = 7,

    There are four pair pins which can work in adc diff mode.Such as:
    ADC_CH0DIFF = 1,p18(p) and P25(n)
    ADC_CH1DIFF = 3,P23(p) and P11(n)
    ADC_CH2DIFF = 5,P14(p) and P24(n)
    ADC_CH3DIFF = 7,P20(p) and P15(n)

    There are two pins which uses with 32.768K crystal oscillator.
    gpio<16>/aio<5>/32K XTAL input
    gpio<17>/aio<6>/32K XTAL output

    There are four pins which uses as pga,voice and so on.
    gpio<23>/aio<1>/micphone bias reference voltage,this pin is selected
    gpio<15>/aio<4>/micphone bias
    gpio<18>/aio<7>/pga in+
    gpio<20>/aio<9>/pga in-
*/
typedef enum
{
    ADC_CH0DIFF = 1,/*p18(positive),p25(negative),only works in diff*/
    ADC_CH0 = 2,ADC_CH1N_P11 = 2,
    ADC_CH1 = 3,ADC_CH1P_P23 = 3,ADC_CH1DIFF = 3,/*P23 and P11*/
    ADC_CH2 = 4,ADC_CH2N_P24 = 4,
    ADC_CH3 = 5,ADC_CH2P_P14 = 5,ADC_CH2DIFF = 5,/*P14 and P24*/
    ADC_CH4 = 6,ADC_CH3N_P15 = 6,
    ADC_CH9 = 7,ADC_CH3P_P20 = 7,ADC_CH3DIFF = 7,/*P20 and P15*/
    ADC_CH_VOICE = 8,
    ADC_CH_NUM =9,
} adc_CH_t;


#define ADC_BIT(ch) (1<<ch)

enum
{
    HAL_ADC_EVT_DATA = 1,
    HAL_ADC_EVT_FAIL = 0xff
};

typedef enum
{
    HAL_ADC_CLOCK_80K = 0,
    HAL_ADC_CLOCK_160K = 1,
    HAL_ADC_CLOCK_320K = 2,
} adc_CLOCK_SEL_t;

typedef struct _adc_Cfg_t
{
    uint8_t channel;
    bool  is_continue_mode;
    uint8_t  is_differential_mode;
    uint8_t  is_high_resolution;
} adc_Cfg_t;


typedef struct _adc_Evt_t
{
    int       type;
    adc_CH_t  ch;
    uint16_t* data;
    uint8_t   size; //word size
} adc_Evt_t;

typedef void (*adc_Hdl_t)(adc_Evt_t* pev);

typedef struct _adc_Contex_t
{
    bool        enable;
    uint8_t     all_channel;
    uint8_t     chs_en_shadow;
    bool        continue_mode;
    adc_Hdl_t   evt_handler[ADC_CH_NUM];
} adc_Ctx_t;

extern gpio_pin_e s_pinmap[ADC_CH_NUM];
/**************************************************************************************
    @fn          hal_adc_init

    @brief       This function process for adc initial

    input parameters

    @param       ADC_CH_e adc_pin: adc pin select;ADC_CH0~ADC_CH7 and ADC_CH_VOICE
                ADC_SEMODE_e semode: single-end mode and diff mode select; 1:SINGLE_END(single-end mode) 0:DIFF(Diff mode)
                IO_CONTROL_e amplitude: input signal amplitude, 0:BELOW_1V,1:UP_1V

    output parameters

    @param       None.

    @return      None.
 **************************************************************************************/
void hal_adc_init(void);

int hal_adc_config_channel(adc_Cfg_t cfg, adc_Hdl_t evt_handler);

int hal_adc_clock_config(adc_CLOCK_SEL_t clk);

int hal_adc_start(uint8_t adc_mode);

int hal_adc_stop(void);

//void hal_adc_value_read(adc_CH_t ch);
uint16_t hal_adc_value_read(adc_CH_t ch);
//float hal_adc_value_read(adc_CH_t ch);

void __attribute__((weak)) hal_ADC_IRQHandler(void);

float hal_adc_value_cal(adc_CH_t ch,uint16_t* buf, uint32_t size, uint8_t high_resol, uint8_t diff_mode);

int hal_adc_deinit(void);

static void hal_adc_load_calibration_value(void);

int hal_adc_compare_start(void);


#define ADC_COMPARE_FILTER_MAX_TIME  10


static void adc_compare_cb(uint16_t ch,uint32_t status);
static void __attribute__((used)) hal_ADC_compare_IRQHandler(void);
int hal_poilling_adc_stop(void);
extern int hal_adc_compare_enable(adc_CH_t ch,uint32_t flag,uint32_t th_high,uint32_t th_low);
extern  int hal_adc_comppare_reset(adc_CH_t ch);
extern bool adc_get_high_threshold_flag(void);
void clear_adcc_cfg(void);

#ifdef __cplusplus
}
#endif

#endif
